Unified and accurate simulation for large elastic strain responses of rubberlike soft materials under multiple modes of loading

IF 1.9 4区 工程技术 Q3 MECHANICS
Jia Kang, Long-Xu Tan, Quan-Pu Liu, Si-Yu Wang, Otto T. Bruhns, Heng Xiao
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Abstract

A new and explicit form of the multi-axial elastic potential for elastic soft materials is constructed by means of two invariants of the Hencky strain. The new elasticity model with this form can bypass coupling complexities and uncertainties usually involved in parameter identification. Namely, exact closed-form solutions of decoupled nature are obtainable for stress responses under multiple benchmark modes. Unlike usual solutions with numerous coupled parameters, such new solutions are independent of one another and, as such, data sets for multiple benchmark modes can be separately matched with mutually independent single-variable functions. A comparative study is presented between a few well-known models and the new model. Results show that predictions from the former agree well with uniaxial and biaxial data, as known in the literature, but would be at variance with data for the constrained stress response in the plane-strain extension. In contrast, predictions from the new model agree accurately with all data sets. Furthermore, exact solutions for the Poynting effect of freely twisted elastic thin-walled tube are obtained from the new model.

Abstract Image

多模式加载下类橡胶软质材料大弹性应变响应的统一精确模拟
利用henky应变的两个不变量,构造了弹性软材料多轴弹性势的一种新的显式形式。这种形式的新弹性模型可以绕过参数辨识中通常涉及的耦合复杂性和不确定性。即对于多基准模态下的应力响应,可以得到解耦性质的精确闭解。与通常具有众多耦合参数的解不同,这种新解彼此独立,因此,多个基准模式的数据集可以分别与相互独立的单变量函数匹配。并将几种知名模型与新模型进行了比较研究。结果表明,前者的预测与文献中已知的单轴和双轴数据一致,但与平面应变扩展中约束应力响应的数据存在差异。相比之下,新模型的预测与所有数据集都准确吻合。此外,利用新模型还得到了自由扭转弹性薄壁管坡印亭效应的精确解。
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来源期刊
CiteScore
5.30
自引率
15.40%
发文量
92
审稿时长
>12 weeks
期刊介绍: This interdisciplinary journal provides a forum for presenting new ideas in continuum and quasi-continuum modeling of systems with a large number of degrees of freedom and sufficient complexity to require thermodynamic closure. Major emphasis is placed on papers attempting to bridge the gap between discrete and continuum approaches as well as micro- and macro-scales, by means of homogenization, statistical averaging and other mathematical tools aimed at the judicial elimination of small time and length scales. The journal is particularly interested in contributions focusing on a simultaneous description of complex systems at several disparate scales. Papers presenting and explaining new experimental findings are highly encouraged. The journal welcomes numerical studies aimed at understanding the physical nature of the phenomena. Potential subjects range from boiling and turbulence to plasticity and earthquakes. Studies of fluids and solids with nonlinear and non-local interactions, multiple fields and multi-scale responses, nontrivial dissipative properties and complex dynamics are expected to have a strong presence in the pages of the journal. An incomplete list of featured topics includes: active solids and liquids, nano-scale effects and molecular structure of materials, singularities in fluid and solid mechanics, polymers, elastomers and liquid crystals, rheology, cavitation and fracture, hysteresis and friction, mechanics of solid and liquid phase transformations, composite, porous and granular media, scaling in statics and dynamics, large scale processes and geomechanics, stochastic aspects of mechanics. The journal would also like to attract papers addressing the very foundations of thermodynamics and kinetics of continuum processes. Of special interest are contributions to the emerging areas of biophysics and biomechanics of cells, bones and tissues leading to new continuum and thermodynamical models.
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